State evolution in finite suden-broading quantum well

In summary, the conversation discusses the changes in a single eigen-state finite potential well when the potential well is broadened by a factor of two. The potential well is described by the function V(x) = V for x < -a and x > a, and V(x) = 0 for -a <= x <= a. The initial state, S0(x), changes to a new state, S1(x), when the potential well is broadened to V(x) = V for x < -2a and x > 2a, and V(x) = 0 for -2a <= x <= 2a. The question is then raised about the time it takes for the state to change from S0(x)
  • #1
Guangwei Yuan
2
0
suppose we have a single eigen-state finite potential well like following:
V(x)= V, x<-a and x>a;
0, -a<=x<=a;
say only one eigen-state within this well S1(x)

when all of sudden this potetial well broden by size of 2
V(x)= V, x<-2a and x>2a;
0, -2a<=x<=2a;
say still only one eigen-state within this new well S1(x)

Please give a suggestion how long as t as the state from S0(x) changes to S1(x). Thanks in advance. Have a nice day.
 
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  • #2
Yuan, you can try to look for the answer to this problem in Zeng jinyan and Qian bochu's exercises' book on Quantum Mechanics. I think it has the same exercise. Good luck!
 
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  • #3


The state evolution in a finite sudden-broading quantum well can be described using the time-dependent Schrodinger equation. In the case of a single eigen-state finite potential well, the initial state S0(x) will evolve into the new state S1(x) as the potential well is suddenly broadened.

The time it takes for this state evolution to occur can be calculated using the time-dependent Schrodinger equation and the properties of the potential well. The time it takes for the state to change from S0(x) to S1(x) will depend on the energy difference between the two states, the width of the potential well, and the strength of the potential.

To make a suggestion for the specific time, we would need more information about the potential well, such as the depth and width of the well, as well as the energy of the initial and final states. Without this information, it is difficult to accurately estimate the time it takes for the state to evolve. However, in general, the broader the potential well and the larger the energy difference between the states, the faster the state will evolve.

In conclusion, the time it takes for the state evolution in a finite sudden-broading quantum well can be calculated using the time-dependent Schrodinger equation and the properties of the potential well. It is important to have specific information about the potential well in order to accurately estimate the time it takes for the state to change from S0(x) to S1(x).
 

1. What is state evolution in finite sudden-broading quantum well?

State evolution in finite sudden-broadening quantum well refers to the change in the energy levels of electrons within a quantum well due to the sudden broadening of the potential barrier at the edges of the well.

2. How does the broadening of the potential barrier affect the electron states in a quantum well?

The broadening of the potential barrier leads to an increase in the number of available energy states for electrons in the quantum well, resulting in a redistribution of the electron energy levels.

3. What factors influence the state evolution in finite sudden-broading quantum well?

The state evolution in finite sudden-broadening quantum well is influenced by the width and height of the potential barrier, as well as the material properties of the quantum well, such as its bandgap and electron effective mass.

4. How is the state evolution in finite sudden-broading quantum well experimentally observed?

The state evolution in finite sudden-broadening quantum well can be observed through various experimental techniques, such as photoluminescence spectroscopy, which measures the energy levels of emitted photons from the quantum well, or tunneling spectroscopy, which measures the energy levels of electrons tunneling through the potential barrier.

5. What are the practical applications of studying state evolution in finite sudden-broading quantum well?

Understanding the state evolution in finite sudden-broadening quantum well is important for the development of quantum well devices, such as lasers and transistors, which rely on precise control of electron energy levels. It also has implications in the field of quantum computing, where quantum wells are used as qubits for information storage and processing.

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